Distillation Setting; General; Select Vacuum Control Mode - Heidolph LABOROTA 20 control Mode D'emploi

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1. General

Using rotational evaporators for thermal breakdown of substances needs some basic
considerations about optimizing the distillation process. Parameters stipulated below are to be
considered for making optimal settings.
Rotational speed, evaporator flask
Increasing rotational speed will increase rate of distillation. Shorter distillation time preserves
thermal stability of your substances to be distilled.
Difference between heating bath and vapor temperatures:
This temperature difference should not be less than 20° C to maintain proper rate of distillation.
As long as your substances in distillation allow, you may even chose a higher temperature
difference.
Rule of thumb: doubling actual temperature difference doubles rate of distillation.
Temperature difference between vapor temperature and coolant:
To maintain adequate condensation rates, we recommend a 20° C temperature difference
between the solvent vapor temperature and coolant. A low temperature difference will affect
solvent recovery. For substances with high evaporation heat, you should increase temperature
difference.

2. Select vacuum control mode

p
vacuum control mode
2.1.
const
The p
mode includes the following features:
const
One of the most important modes of control
Requires optional vacuum valve and vacuum pressure sensor
Selective distillation of different substances within the scope of their physical properties
Distillation of solvent mixtures need manual pressure settings
High reproducibility
Requires knowledge of thermodynamic substance data
first choice for all standard processes
For operation & parameter settings refer to page 85
Pressure (set vacuum) and hysteresis p (set p) need to be set

DISTILLATION SETTING

65
E

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